f0ab104f070bc7f569404826fea1828ed985638cvboxsyncextern _X_EXPORT VisualID PanoramiXTranslateVisualID(int screen, VisualID orig);
f0ab104f070bc7f569404826fea1828ed985638cvboxsyncextern _X_EXPORT Bool PanoramiXCreateConnectionBlock(void);
f0ab104f070bc7f569404826fea1828ed985638cvboxsyncextern _X_EXPORT PanoramiXRes * PanoramiXFindIDByScrnum(RESTYPE, XID, int);
f0ab104f070bc7f569404826fea1828ed985638cvboxsyncextern _X_EXPORT Bool XineramaRegisterConnectionBlockCallback(void (*func)(void));
f0ab104f070bc7f569404826fea1828ed985638cvboxsyncextern _X_EXPORT int XineramaDeleteResource(pointer, XID);
f0ab104f070bc7f569404826fea1828ed985638cvboxsync * Drivers are allowed to wrap this function. Each wrapper can decide that the
f0ab104f070bc7f569404826fea1828ed985638cvboxsync * two visuals are unequal, but if they are deemed equal, the wrapper must call
f0ab104f070bc7f569404826fea1828ed985638cvboxsync * down and return FALSE if the wrapped function does. This ensures that all
f0ab104f070bc7f569404826fea1828ed985638cvboxsync * layers agree that the visuals are equal. The first visual is always from
f0ab104f070bc7f569404826fea1828ed985638cvboxsync * screen 0.
f0ab104f070bc7f569404826fea1828ed985638cvboxsynctypedef Bool (*XineramaVisualsEqualProcPtr)(VisualPtr, ScreenPtr, VisualPtr);
f0ab104f070bc7f569404826fea1828ed985638cvboxsyncextern _X_EXPORT XineramaVisualsEqualProcPtr XineramaVisualsEqualPtr;
f0ab104f070bc7f569404826fea1828ed985638cvboxsync unsigned int format,
f0ab104f070bc7f569404826fea1828ed985638cvboxsync unsigned long planemask,
f0ab104f070bc7f569404826fea1828ed985638cvboxsyncstatic inline void panoramix_setup_ids(PanoramiXRes *resource,
f0ab104f070bc7f569404826fea1828ed985638cvboxsync resource->info[j].id = FakeClientID(client->index);
f0ab104f070bc7f569404826fea1828ed985638cvboxsync#endif /* _PANORAMIXSRV_H_ */